EP1732175A2 - Angular connector housing with cover - Google Patents

Abstract

The housing has a resting unit (12), and a cover (6) for closing an opening. A guiding unit is formed at one of two side pieces (2, 4), and a complementary guiding unit (10) is formed at the cover. A spring unit provided between the cover and one of side pieces in a closed condition of the cover has another resting unit (24). The guiding units guide the cover during closing, such that the resting units work together in the closed condition for holding the cover in the closed condition and for arranging the spring unit in a condition of lower spring tension. An independent claim is also included for a spring unit for connection with two curved sections.

Description

Background of the invention

The present invention relates to an angle connector housing having an opening which is closable by a latching lid. In particular, the invention relates to an angle connector housing having the features of the preamble of claim 1.

Elbow connector housings are used to connect to aggregates and include a flange-like first leg attached to the assembly and an angled second leg to the first leg which may be tube-like.

State of the art

DE 298 13 455 U1 discloses an elbow connector with a hood-like cover bolted to the elbow connector. A screw fastening requires a longer time when attaching the cover and is sensitive to vibration. Further, a screw may be lost in attaching the cover, and the required tightening torque of the screw can not be ensured by simple means.

DE 195 20 544 A1 discloses a lid of an angle connector housing which engages with the angle connector housing by means of integrally formed with the lid edge annular webs or the like. This type of locking is subject to wear, and further, the forces required to a sealing element for sealing the angle connector housing can not be permanently ensured.

DE 199 42 921 A1 discloses an elbow connector housing having two legs and an opening closable by a lid, the cover having a laterally formed spring element which in the closed position of the lid is provided outside the lid and one of the two legs, so that it is exposed to contamination.

Object of the invention

It is an object of the invention to provide an angle connector housing having an opening and a lid, wherein the lid is locked with low-wear with the angle connector housing.

Inventive solution

The object is achieved by an angle connector housing having a first leg, a second leg disposed at an angle to the first leg, an opening formed on at least one of the legs, first latching means, a cover for closing the opening, a guide element attached to at least one of the legs is formed, a complementary guide element, which is formed on the lid, and a spring element with second locking means. In this case, the spring element is provided in the closed position of the lid between the lid and at least one of the legs, wherein when placing the lid, the spring element is in a state of higher spring tension and the guide element and the complementary guide element cause the lid when closing such that in the closed position of the lid, the first locking means and the second locking means cooperate such that they hold the lid in the closed position and the spring element is in a state of lower spring tension.

The first latching means may be formed by a latching projection, and the second latching means may be formed by a portion of the spring element, for example an edge of the spring element. In the closed position of the lid, the first and second locking means may cooperate such that they lock the lid and the housing together. During placement of the lid, the spring element can be compressed, for example by the latching projection, that is, the spring element is in a state of higher voltage. In the closed position of the lid, ie the detent position, the spring element may be in a state of lower tension. To unlock the lid, the spring element can be stretched again.

Advantages, refinements and developments of the invention

The guide element and the complementary guide element allow a safe guiding of the lid when closing, so that it can not tilt, thereby ensuring that the opening is securely closed. Since the spring element is located between the lid and one of the legs, it is protected against contamination. The separate spring element allows a relatively stable design of the lid and / or the legs, which reduces the wear. The spring element may also be formed integrally with the lid or one of the legs. The expression "spring element" should be understood to mean that the cover or one of the legs has an area acting as a spring.

The angle connector housing may include a first sealing element disposed on at least one of the legs and a second sealing element disposed on the lid, wherein the guiding element and the complementary guiding element cooperate such that the first sealing element and the second sealing element engage the opening in Seal the closed position of the lid.

The first sealing element can itself effect a sealing function. Furthermore, a receiving element for receiving the first sealing element, for example an O-ring, may be formed on the angular connector housing. The receiving element may be formed as a distinction. The second sealing element may be formed as a sealing surface.

The sealing elements may touch in the closed position of the lid or may also be formed as labyrinth seals. The sealing elements may provide protection against at least one environmental influence quantity. The sealing elements can also be designed such that they only provide protection against contamination.

In the angle connector housing, the first sealing element may be integral with at least one of the legs and / or the second sealing element may be formed integrally with the lid. This can ensure that none of the sealing elements slip when closing the lid or lost from the angle connector housing.
In the angle connector housing, at least one of the legs may include a plurality of guide elements, and the lid may include a plurality of Complementary guide elements, wherein the plurality of guide elements cooperates with the plurality of complementary guide elements to guide the lid when closing. Thus, the lid is particularly well managed when closing. The plurality of guide elements and the plurality of complementary guide elements can be arranged in such a way that incorrect assembly and static overdetermination of the cover are avoided.
In the angle connector housing, the spring element may be arranged on the underside of the lid, the first locking means may be formed on at least one of the legs and may be provided in the closed position of the lid, the spring element and the first locking means between the lid and one of the legs.

In the angle connector housing, the spring element may be provided outside the area defined by the first sealing element and the second sealing element. Since the spring element is arranged between the lid and at least one of the legs, it is largely protected against contamination.

In the angle connector housing may be provided between the cover and one of the legs, an actuating opening through which an actuating tool can be introduced to bring the spring element in a state in which the second locking means release from the first locking means. Since the actuating opening is provided between the lid and one of the legs, the spring element is largely protected against contamination and accessible for an actuating tool, such as a screwdriver, through the actuating opening to unlatch the latching means. Neither to lock nor to unlock the first and second locking means a special tool is required.

In the angle connector housing, the at least one guide element may extend along one of the legs in its longitudinal direction. In this case, a particularly good guidance of the lid during the closing operation and a stable holding of the lid in the closed position are achieved.

In the angle plug connector housing, the at least one guide element and the at least one complementary guide element can be provided within the area defined by the first sealing element and the second sealing element.

This ensures that the at least one guide element and the at least one complementary guide element are protected against contamination and the guide is improved with respect to the sealing elements. Furthermore, in an angle connector housing in which the opening is formed at the kinked region between the legs, a particularly space-saving arrangement.

In the angle plug connector housing, the at least one guide element may be formed within the area defined by the opening, so that in the closed position of the lid, the at least one complementary guide element extends through the opening. As a result, a space-saving arrangement is achieved.

In the angle connector housing can be provided that the at least one complementary guide element does not cooperate with the opening. Thus, no wear occurs at the opening and the optionally attached thereto sealing element. Furthermore, a static over-determination can be avoided and no tight manufacturing tolerances are required. If the complementary guide elements cooperate with the opening, tight manufacturing tolerances are required, on the one hand to ensure good management and on the other hand to avoid static overdetermination and / or jamming.

In the angle connector housing, the at least one guide element may be formed as a guide groove and the at least one complementary guide element may be formed as a guide web. The guide webs and guide grooves can be arranged such that incorrect assembly and static overdetermination of the cover are avoided.

In the angle connector housing, the opening may be in the transition region from the first leg to the second leg.

In the angle connector housing, the opening may be formed in an obliquely extending between the legs in the longitudinal section of the angle connector housing area. Typically, the sloped portion is at an angle of about 45 ° to one of the legs. The oblique region may also be an area of at least one of the two legs.

In the angle connector housing, the at least one guide element may extend in the interior of one of the legs in its longitudinal direction. This achieves a space-saving arrangement with good guiding properties.

In the angle connector housing, the guide members may be integrally formed with the inner periphery of at least one of the legs. The guide elements may be formed, for example, as abutment areas or abutment lines on the inner diameter of at least one of the legs. In this embodiment, no separate recesses are required to form the guide elements. Furthermore, this embodiment is particularly suitable if at least three complementary guide elements are provided. But it can also be applied if, for example, a U-shaped or rectangular complementary guide element is provided.

In the angle connector housing, the spring member may include a first arcuate portion and a second arcuate portion each formed in the longitudinal direction of the spring member and connected at their arc ends by a bend such that the spring member has a V-shaped profile in the transverse direction.

This embodiment of the spring element achieves a high spring force in the transverse direction with small dimensions in the transverse direction.

In the angle connector housing, an operating portion of the spring member may be disposed between the arc ends of one of the arcuate portions.

In the angular connector housing, the spring element may comprise at one of the arc-shaped sections in the arc-outward direction a straight region on which the second latching means and / or the actuating region are formed.

The angle connector housing may be formed such that by pressing on the operating region of the spring element, the first locking means and the second locking means are released from each other.

As a result, the first locking means and the second locking means by means of a simple operating tool, such as a screwdriver from each other be solved, and no special tool is required. Furthermore, neither the lid nor any of the legs must be elastically deformed for releasing.

In the angle connector housing, the inner region of the arcuate portions of the spring element can be arranged around at least one leg in the closed state of the lid.

This results in a particularly space-saving arrangement with a high spring force in the transverse direction of the spring element. Depending on the design of the spring element may result in a long travel.

In the angle plug connector housing, in the closed position of the cover, the first sealing element can cooperate with the second sealing element in such a way that the opening is at least dust-tightly sealed.

The object of the invention is also achieved by a spring element for a latching connection or a detent spring element, which comprises a first arcuate portion and a second arcuate portion which are each formed in the longitudinal direction of the spring element and are connected at their bow ends by a bend such the spring element has a V-shaped profile in the transverse direction.

This embodiment of the spring element achieves a high spring force in the transverse direction with small dimensions in the transverse direction. This spring element is particularly suitable for use with flange-like or tubular components, since it can be arranged to save space on the outside thereof. The spring element can be produced, for example, by bending a circular ring disk or an oval ring disk.

In the spring element, an actuating region may be arranged between the bow ends of one of the arcuate sections, which serves to compress the spring element.

In the spring element locking means can be arranged between the bow ends of one of the arcuate portions.

The spring element may comprise at one of the arc-shaped sections in the arc outward direction a straight region on which the latching means and / or the actuating region are formed.

Brief description of the drawings

• Figur 1 eine erste Explosionsansicht eines erfindungsgemäßen Winkelsteckverbindergehäuses;
• Figur 2 eine perspektivische Ansicht des Deckels des Winkelsteckverbindergehäuses;
• Figur 3 eine Schnittansicht des Winkelsteckverbindergehäuses, wobei sich der Deckel in der geschlossenen Stellung befindet;
• Figur 4 eine zweite Explosionsansicht des Winkelsteckverbindergehäuses; und
• Figur 5 eine perspektivische Ansicht eines erfindungsgemäßen Federelements.

Hereinafter, an embodiment of the invention will be described in more detail with reference to drawings. They show:

• Figure 1 is a first exploded view of an angle connector housing according to the invention;
• Figure 2 is a perspective view of the lid of the angle connector housing;
• Figure 3 is a sectional view of the angle connector housing with the lid in the closed position;
• Figure 4 is a second exploded view of the angle connector housing; and
• Figure 5 is a perspective view of a spring element according to the invention.

Detailed description of embodiments according to the invention

Figures 1, 3 and 4 show different views of an angle connector housing 1 according to the invention with a first leg 2, a second leg 4, a cover 6, a spring element 8, and an opening 14 which extends in an inclined at an angle of about 45 ° region the first leg 2 and the second leg 4 and between the first leg 2 and the second leg 4 is formed. The angle connector housing 1 comprises at its second leg 4 first locking means 12 which are formed as a latching projection. Further, the angle connector housing 1 comprises at the opening 14 a arranged on a sealing element receiving 19 first sealing element 18 which surrounds the opening 14 radially and is formed as an O-ring. The first sealing element 18 may also be integrally formed with at least one of the legs 2, 4. The first leg 2 comprises three guide elements (not shown) which extend as guide grooves in the interior of the first leg 2 in its longitudinal direction in the region defined by the opening 14. This allows a great length of the guide elements be achieved, which improves the leadership, and at the same time this arrangement is space-saving and the guide elements are protected from contamination. Furthermore, incorrect mounting of the cover 6 can be prevented by the three guide grooves. It is also possible to use a single guide element which securely guides the lid in two degrees of freedom, for example a U-shaped, a V-shaped, a T-shaped or a rectangular guide element designed with a correspondingly large cross-section. In this embodiment, the lid can be pressed from above onto the angle connector housing. Due to the ergonomic arrangement, the user of the angle connector housing can use his own body weight when closing the lid. Consequently, only a small amount of force is required by the user.
The cover 6 shown in FIG. 2 comprises a spring element 8 arranged on its underside, three complementary guide elements 10 designed as guide webs and a second sealing element 20 formed integrally with the cover 6 as an insertion bevel. However, it may also be a separate sealing element, for example an O-ring be provided on the cover 6. Since the spring element is arranged protected between the cover and at least one of the legs, there is only a small risk of injury.

The spring element 8 according to the invention shown in Figure 5 comprises a first arcuate portion 26 and a second arcuate portion 26, each formed in the longitudinal direction of the spring element 8 and are connected at their bow ends by a bend 28 such that the spring element 8 in the transverse direction V-shaped profile has. The first arcuate portion 26 includes a straight arcuate portion that includes the second latching means 24 and the actuating portion 22. The second arcuate section 26 comprises a fastening region 32 with which the spring element 8 can be attached to a component, for example the cover 6. As previously mentioned, the spring element 8 can be formed, for example, by bending a circular disk or an oval ring disk. In one embodiment, an arcuate portion 26 of the spring element 8 comprises an angular segment of about 180 °, but other angle segments are also conceivable. This spring element is particularly suitable for use in a flange-like or tubular component, since it can be arranged to save space around its peripheral region.

The spring element 8 does not necessarily have a round arcuate shape in its longitudinal direction, it could also, depending on the field of use, on its inner circumference and / or outer circumference be formed rectangular, and could thus be formed by bending a rectangular ring.

If the cover 6 is inserted onto the angle connector housing 1, the three guide webs 10 cooperate with the guide grooves (not shown) in the interior of the first leg 2 in such a way that they guide the cover 6 relatively precisely, so that in the closed position the first sealing element 18 and the second sealing element 20 terminate the angle connector housing and the first latching means 12 and the second latching means 24 hold the lid 6 in the closed position. It may be provided a dustproof sealing. When attaching the lid of the first locking means 12 formed locking projection biases the spring element 8 by the locking projection cooperates when placing the lid 6 with the transversely V-shaped portion of the arcuate portions 26 such that the spring element 8 is compressed in its transverse direction , In the closed position of the lid 6, the spring element 8 relaxes in the transverse direction, and formed on the spring element 8 second locking means 24 cooperate with the first locking means 12 formed locking projection such that the lid 6 is securely held in its closed position and not can be deducted. When snapping the spring element 8 occurs a significant locking noise.

The spring element 8 has an arcuate profile in its longitudinal direction, and the second leg 4 has a substantially round cross section. In the closed state of the lid 6, the inner region of the arcuate portions of the spring element 8 is arranged on or about the outer circumference of the second leg 4, whereby the spring element 8 is arranged to save space. In this position, the transverse direction of the spring element 8 is directed in the longitudinal direction of the second leg 4. The spring element 8 has in its transverse direction on a comparatively large spring length, whereby a large elastic range of the spring element 8 is achieved and a plastic deformation of the spring element 8 is avoided.

If the lid 6 is closed, forms between the lid 6 and the second leg 4, an actuating opening 30 through which an actuating tool, such as a screwdriver, can be inserted to detent the first locking means 12 and the second locking means 24 by a Compressive force on the actuating portion 22, the spring element 8 compressed in its transverse direction becomes. The spring element 8 is arranged largely dust-proof between the cover 6 and the second leg 4.

To remove the lid 6, an operating tool, for example a screwdriver, is inserted into the actuating opening 30, which presses against the actuating area 22 and biases the spring element 8 in its transverse direction. On the second leg 4, a stop 16 shown in Figure 3 is provided, which prevents the spring element 8 is compressed over its elastic range. By tensioning the spring element 8, the second latching means 24 detent from the first latching means 12, which are shown in Figure 1 and are formed by the latching projection. The cover 6 can now be removed from the angle connector housing 1.

This type of latching and unlatching is particularly resistant to wear, since only the spring element 8 is deformed for locking and unlatching. Due to the large elastic range of the spring element 8 in its transverse direction results in a particularly vibration-proof latching of the lid. 6

In the disclosed angular connector housing 1, the guide elements or the complementary guide elements 10 assume only the guiding function, the first sealing element 18 and the second sealing element 20 only the sealing function and the first locking means 12 and the second locking means 24 only the locking function. Thus, the guide elements or the complementary guide elements 10, the first sealing element 18 and the second sealing element 20 and the first locking means 12 and the second locking means 24 are optimized or optimized for their respective function. This results in a vibration-proof, temperature-resistant, age-resistant and low-wear angle connector housing. 1

Claims (26)

Angle connector housing (1), with - a first leg (2); - One to the first leg (2) angularly arranged second leg (4); - An opening (14) formed on at least one of the legs (2, 4); - First locking means (12); - A lid (6) for closing the opening (14); - A guide member which is formed on at least one of the legs (2, 4); - A complementary guide element (10) which is formed on the lid (6); and - A spring element (8) with second locking means (24) which in the closed position of the lid (6) between the cover (6) and at least one of the legs (2, 4) is provided, wherein - When the cover (6), the spring element (8) is in a state of higher spring tension and - The guide element and the complementary guide element (10) guide the lid (6) when closing such that - In the closed position of the lid (6), the first latching means (12) and the second latching means (24) cooperate such that they hold the lid (6) in the closed position and the spring element (8) in a state of lower spring tension located. Angled connector housing according to claim 1, characterized in that the angle connector housing (1) a first sealing element (18) which is arranged on at least one of the legs (2, 4), and a second sealing element (20) arranged on the cover (6) is, wherein the guide element and the complementary guide element (10) cooperate such that the first sealing element (18) and the second sealing element (20) seal the opening (14) in the closed position of the lid (6). Angled connector housing according to claim 2, characterized in that the first sealing element (18) integral with at least one of the legs (2, 4) and / or the second sealing element (20) is formed integrally with the cover (6). Angle connector housing according to one of claims 1 to 3, characterized in that at least one of the legs (2, 4) comprises a plurality of guide elements and the lid (6) comprises a plurality of complementary guide elements (10), wherein the plurality of guide elements with the A plurality of complementary guide elements (10) cooperates to guide the lid (6) when closing. Angled connector housing according to one of claims 1 to 4, characterized in that the spring element (8) is arranged on the underside of the lid, the first latching means (12) on at least one of the legs (2, 4) are formed and in the closed position of the lid ( 6), the spring element (8) and the first latching means (12) between the cover (6) and one of the legs (2, 4) are provided. Angled connector housing according to one of claims 2 to 5, characterized in that the spring element (8) is provided outside the area defined by the first sealing element (18) and the second sealing element (20). Angular connector housing according to one of claims 1 to 6, characterized in that between the cover (6) and one of the legs (2, 4) an actuating opening (30) is provided, through which an actuating tool can be inserted to the spring element (8) to bring into a state in which the second locking means (24) from the first locking means (12) come off. Angled connector housing according to one of claims 1 to 7, characterized in that extending the at least one guide element along one of the legs (2, 4) in its longitudinal direction. Angled connector housing according to one of claims 2 to 8, characterized in that the at least one guide element and the at least one complementary guide element (10) are provided within the area defined by the first sealing element (18) and the second sealing element (20). Angle connector housing according to one of claims 1 to 9, characterized in that the at least one guide element are formed within the area defined by the opening (14), so that in the closed position of the lid (6) the at least one complementary guide element (10) through the opening (14). Angled connector housing according to one of claims 1 to 10, characterized in that the at least one complementary guide element (10) does not cooperate with the opening (14). Angled connector housing according to one of claims 1 to 11, characterized in that the at least one guide element is designed as a guide groove and the at least one complementary guide element (10) is designed as a guide web. Angled connector housing according to one of claims 1 to 12, characterized in that the opening (14) in a transition region from the first leg (2) to the second leg (4). Angled connector housing according to claim 13, characterized in that the opening (14) in a between the legs (2, 4) in the longitudinal section of the angle connector housing (1) obliquely extending region is formed. Angled connector housing according to one of claims 1 to 14, characterized in that the at least one guide element extends in the interior of one of the legs (2,4) in its longitudinal direction. Angle connector housing according to one of claims 1 to 15, characterized in that the at least one guide element is formed integrally with the inner circumference of at least one of the legs (2, 4). Angle connector housing according to one of claims 1 to 16, characterized in that the spring element (8) comprises a first arcuate portion (26) and a second arcuate portion (26) which are each formed in the longitudinal direction of the spring element (8) and at their Bow ends by a bend (28) are connected such that the spring element (8) in the transverse direction has a V-shaped profile. Angled connector housing according to claim 17, characterized in that an actuating region (22) of the spring element (8) is arranged between the bow ends of one of the arcuate sections. Angle connector housing according to claim 18, characterized in that the spring element (8) comprises at one of the arcuate portions in the arc outside a straight region on which the second locking means (24) and the actuating portion (22) are formed. Angled connector housing according to one of claims 18 to 19, characterized in that the angle connector housing (1) is designed such that by pressing on the actuating portion (22) of the spring element (8), the first latching means (12) and the second latching means (24) from each other be solved. Angled connector housing according to one of claims 17 to 20, characterized in that in the closed state of the lid (6), the inner region of the arcuate portions of the spring element (8) is arranged around at least one leg (2, 4). Angle connector housing according to one of claims 2 to 21, characterized in that in the closed position of the lid (6), the first sealing element (18) with the second sealing element (20) cooperates such that the opening (14) is sealed at least dustproof. Spring element (8) for a latching connection with a first arcuate portion (26) and a second arcuate portion (26) each formed in the longitudinal direction of the spring element (8) and connected at their bow ends by a bend (28) such the spring element (8) has a V-shaped profile in the transverse direction. Spring element according to claim 23, characterized in that between the bow ends of one of the arcuate portions (26) an actuating portion (22) is arranged. Spring element according to claim 23 or 24, characterized in that between the bow ends of one of the arcuate portions latching means (24) are arranged. Spring element according to claim 23, characterized in that the spring element (8) comprises at one of the arcuate sections in the sheet outer direction a straight region on which the latching means (24) and / or the actuating region (22) are formed.

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